Photographic copying apparatus



Sept. 19, 1944.

P. LANDROCK ET AL PHOTOGRAPHC COPYING APPARATUS Filed Nov. 6, 1941 13 Sheets-Sheet l l .765 ATT Sept. 19, 1944. P. LANDRocK ET AL PHOTOGRAPHIC COPYING APPARATUS Filed Nov. e, 1941 l5 Sheets-Sheet 2 Sept. 19, 19ML P. L ANROCK ET AL PHOTOGRAPHIC COPYING APPARATUS Filed Nov. 6, 1941 13 Sheets-Sheet 5 INVENTORS. Mock W UUS' `ZZZ'rAT ORNEYS.

Sept 19, 1944 P. LANDROCK ET A1. 2,358,649

PHOTOGRAPHIC COPYING APPARATUS Filed Nov. e. 1941 1:5 sheets-sheet 4 INVENTORS. PmZfmac/Q Sept 19, 1944 P. LANDROCK ET AL 2,358,649

PHOTOGRAPHIC COPYING APPARATUS Filed Nov. 6. 1941 l5 Sheets-Sheet 5 Sept. 19, 1944. P. LANDROCK ET A1. 2,358,649

PHOTOGRAPHIC COPYING APPARATUS Filed Nov. 6, 1941 13 Sheets-Sheet 6 Sept. 19, 1944. P, LANDRocK ET AL PHOTOGRAPHIC COPYING APPARATUS Filed Nov. 6, 1941 13 Sheets-Sheet 7 v INVENTOR. PM2: rack BY 7/ MA TTO EYI?A Sept. 19, 1944. P. LANDRoczKY ET AL PHOTOGRAPHIC COPYINGl APPARATUS Filed Nov. 6,' 1941 13 Sheets-Sheet 8 INVENTORIS. DczzI BY will? SePt- 19, 1944 P. LANDROCK ETAL i PHOTOGRAPHIC COPYING APPARATUS Filed Nov. 6, 1941 13 Sheets-Sheet 9 Num. il NG@ GYN QQ um@ :In

ih www uw )k @um @QN L.. n 1 L..J.= m Jrl" ci ,il I C, Emmy F Fi Lm? 11ml ,w NNE l1' La m J/ L... L lln e Il l M9 o /mwmv Y QAK INSNI H E@ NNQ AM c SAQ Sept 19, 1944 P. LANDRocK ET AL 2,358,649v

` PHOTOGRAPHIC COPYING APPARATUS Filed Nov. 6, 1941 13 Sheets-Sheet l0 Sept- 19, 1944. P. LANDRocK ET Ar.

PHOTOGRAPHIC COPYING APPARATUS Filed Nov. 6, 1941 15 Sheets-Sheet 1l INVENTORS. zam-ffmc@ Sepf- 19, 1944 P. LANDRocK ET Al. 2,358,649 y PHOTOGRAPHIC COPYING APARATUS Filed NOV. 6, 1941 15 Sheets-Sheet l2 wir ATTORNEYi Sept. 19, 1944. P, LANDROCK ET AL 2,358,649

PHOTOGRAPHIC COEYING APPARATUS Filed Nov. 6, 1941 13 Sheets-Sheet 13 Patented Sept. 19, 1944 PHOTOGRAPHIC OOPYIN G APPARATUS Paul Landrock and Arthur W. Caps, Rochester,

assignors to Photostat Corporation,

Providence, R. I., a corporation of Rhode Island Application November 6, 1941, Serial No. 418,064

7 Claims. (,Cl. 88-24) This invention relates to apparatus for making photographic copies. An object of the invention is the provision of generally improved and more satisfactory apparatus capable of making copies of relatively long strips of material, such as long engineering prole drawings, oil and gas well logs, etc., frequently referred to as continuous strips.

Another object is the provision of apparatus of this type, so designed and constructed that the originals may be photographically copied either on the same scale, or on a reduced or enlarged scale, as desired.

A further object is the provision of such stripcopying mechanismrin the form of an attachment which may be relatively easily and quickly applied to photographic copying cameras of a kind already in widespread use.

To these and other ends theinvention resides in certain improvements and combinations of parts, all as will be hereinafter more fully described., the novel features being pointed out in the claims at the end of the specification.

In the drawings:

Fig. l is a side elevation of photographic copying apparatus in accordance with a preferred embodiment of the present invention, the partsI being shown in the position for making a copy of the original on a reduced scale;

Fig. 2 is a similar side elevation of part of the structure shown in Fig. l, on a larger scale, illustrating the parts in position for making an enlarged reproduction of the original;

Fig. 3 is a vertical longitudinal section. taken substantially centrally through a portion of the camera body, illustrating mechanism associated with the lower part of the focal plane of the camera;

Fig. 4 is a front face view of a focal plane masking unit forming part of the invention;

Fig. 5 is a horizontal section taken substantially on the line 5 5 of Fig. 4;

Fig. 6 is a vertical section taken substantially on the line S- of Fig. 4;

Fig. 7' is a vertical section taken substantially on the line 'E 'l of Fig. 6; Y

8 is a vertical section taken substantially on the line 8 8 of Fig. 6.;

Fig. 9 is an elevation of a portion of the lower right hand side of the camera body, illustrating part of the motor driving connections with certain cover plates removed, parts cut away, and parts in section. in order to illustrate the construction better;

Fig. ,1.0 is a developed sectional view taken approximately on the line lil-l of Fig. 9;

Fig. 11 an elevation of a portion of the gearing shown in Fig. 9, with overlying parts omitted to show the construction better;

Fig. 12 is a plan view of the gearing shown in Fig. 9, with the casing parts in horizontal section;

Fig. 13 is a side elevation, viewed from the right hand side, of the part of the apparatus for holding and feeding the long strip of material which is to be copied;

Fig. 14 is a similar elevation of a fragment of the structure shown in Fig. 13, viewed from the opposite or left side, with part of the gear casing removed and part shown in section;

Fig. 15 is a front elevational view of the mechanism shown in Fig. 13;

Fig. 16 is a face view of an indicia plate constituting part of the mechanism shown in Figs. 13 to 15;

Fig. 17 is a vertical section taken approximately centrally through the upper part of the mechanism shown in Figs. 13 to l5, the plane of the section being indicated in part by the line Il-I'I of Fig. 18;

Fig. 18 is` a vertical section taken transversely through part of the mechanism shown in Fig. 17, approximately on the line l8-l8 thereof;

Fig. 19 is a side elevation, on a larger scale, of the gear box shown in Fig. 13, with the cover removed to show the gears within the box, and with parts in section;

Fig. 20 is a front elevational view of the gears within the gear box of Fig. 19, with the casing shown in vertical section;

Fig. 2l is a developed sectional view through the gears, taken approximately on the line 2 I-2l of Fig. 19, and

Fig. 22 is a side view, with parts in vertical section, of a shifting and locking knob for controlling the gearing shown in Figs. 19 to 21.

The same reference numerals throughout the several views indicate the same parts.

Many of the parts of the photocopying apparatus of the present invention may, for the sake of manufacturing economy, be of the same construction as corresponding parts of one type of copying camera already extensively manufactured and in wide use. These conventional parts of the present apparatus will rst be described.

Referring now to Figs. 1 and 2 oi the drawings, the conventional parts of the structure may include, for example, a suitable supporting framework having uprights 3l supporting a top rail 33. at the front end of which a camera front board 35 is mounted, the front board being connected by bellows 31 with a camera body section 39 movable back and forth along the horizontal rails 33 for purposes of focusing. Hinged to the body section 39 on the left hand side of the camera (the far or hidden side when viewed as in Figs. 1 and 2) is a magazine section 4l which fits tightly against the back of the section 39 when it is closed, and which may be held in such closed position by the latches 43.

access to a supply roll 4l of sensitized film, such as paper coated with photographic emulsion.

Within the magazine section 4 I, near the front thereof, is a vertical plate 5I (Fig. 3) extending transversely of the machine and constituting a focal plane support. roll is led over a guide roller 53 (Fig. 2) at the top of the focal plane support and thence extends downwardly, lying flat against the front face of the focal plane support in the position (Figs. 2 and 3) indicated by the letter P. Below the bottom edge of the focal plane support the paper passes through the nip between a pair of feed rollers, such as the roller 5 5 (Fig. 3) which may be driven for feeding purposes, and the roller 51 which serves to press the paper against the roller 55 and which may be geared to the roller 55 to be driven positively therewith. The idler roller is mounted in bearings on a pair of bracket levers 59 pivoted to oscillate on screw studs 6l, and having tails 63 constantly pulled by tension springs 65 to tend to press the idler roller against the feeding roller. When it is desired to relieve the roller pressure for purposes of threading or withdrawing the strip of sensitized paper, or to stopthe feeding motion thereof, a'transverse shaft 5'! (Fig. 3) having flat spots opposite the bracket levers 59 may be turned a fraction of a revolution by means of the accessible handle 69 (Fig. 2) to shift the bracket levers 59 to move L the Vroller 57 away from the roller 55. Conventionally, a one-way clutch is associated with the feeding roller 55 to prevent reverse rotation thereof, but such clutch is omitted in the present instance, as is also the conventional hand winding crank and associated measuring devicefor winding measured lengths of film.

When the strip of paper P is to be severed, a crank handle H (Fig. 2) is turned in a counterclockwise direction, which causes corresponding turning of the shaft 'I3 (Fig. 3) on which this handle is mounted, turning a pair of gears 15 fixed to this shaft and causing forward movementof a pair of rack bars 11 to advance a severing knife'lS mounted on these rack bars into shearing relation to a fixed bar 8B, to out the paper P transversely in a line slightly below the feeding rollers 55, 5l. A spring 8l associated with the shaft 'I3 constantly tends to return the severing knife 1 9 toits rearward position, out of the path of travel of the paper.

The paper P, whether severed into relatively short pieces or whether remaining in a single long strip, passes downwardly and outwardly through a transverse slot 85 (Fig. 3)V in the bottom wall 8'! of the camera magazine section 4l, and thence directly or indirectly into suitable photographic developing apparatus of known form. Inthe present instance the paper preferably does not pass directly into a developing bath, but goes into a conveyor casing 9| (Figs. 1 and 3)V and is received between one or more upper belts 93 and one or more lower belts 95, running on upper rollers 9'! and lower rollers 99. respectively. Movementof V these belts carries the sensitized paper rearwardly into a photographic dark room.

' one wall of which is indicated diagrammatically The web or lm from the A opening in the dark room wall, when the camera body is moved along the rails 33 for focusing, while maintaining a light-tight joint at all times. Within the photographic dark room, the sensitized paper may be developed, washed, and'xed in the usual manner, by hand or by the use of any desired apparatus or machinery.

On the camera front board 35 is mounted a .conventional cameras of similar construction,

contains a photographic shutter. No shutter is necessary in the apparatus of the present invention, however, and the shutter is preferably omitted. YOn the front of the housing IH is secured a housing H3 containing a suitable lens or lens system, to which is attached a casing H5 containing a prism or other light reflecting means, faced downwardly to receive light rays rising approximately vertically from a suitable copyholder holding the document or other subject to be copied, this copyholder being supported for vertical focusing movement on a pair of vertical rails Ill mounted at the front end of the supporting framework 3l.

The apparatus thus far described is conventional and well known (except for the omission of the one-way clutch, the feeding and'measuring mechanism, and the camera shutter, as above mentioned) and further detailed description thereof is believed to be unnecessary.

' The further structure of the present invention can best be understood by appreciating the principle of operation. According to this principle, the strip of material to be photographically copied (such forexample as a long engineering profile, an oil Vwell log, or the like, although short strips, individual letters, etc., can likewise be copied) is fed longitudinally at a constant rate, past a given area, and this area of the moving strip is illuminated. Light rays from the illuminated strip or web is fed through the focal plane at a constant rate, in synchronism with the movement'of the image of the subject t0 be copied. All but a narrow transverse strip or area of the moving paper web P is masked olf, so that the image of the illuminated area of the moving subjectV falls only upon the narrow unmasked area of the moving sensitized material. Since the two strips are moving in synchronism, the movement does not cause blurring or fogging of the image, because the image of any given point on the moving subject travels on the focal plane of theV camera at exactly the same speed at which the sensitized material in the focal plane is moving.

A single photographic print of any desired length Y tem to the subject Yshould be equal to the dis-V tanceA from the lens system to the sensitized material in the focal plane 0f the camera, and the rate of feeding travel of the subject should be equal to' the rate of feeding travel of the sensitized material. 4If the photographic copy is to be made on a reduced scale, then the distance from the lens system to the subject Ymust be greater than the distance from the lens system to the .Sensitized material,v the proportions between these distances being governed by the focal length of the lens system and the known laws of optics, and the feeding movement of the subject must take place at a faster rate than that of the sensitized material, the ratio of feeding rates being the same as the ratio of distances from the lens system to the subject and the sensitized material, respectively. The parts in Fig. 1 are shown set for making such a reproduction on a smaller scale.

On the other hand, if a reproduction is to be made on an enlarged scale, then the distance from the lens system to the subject must be less than the distance from the lens system to the sensitized material, such a setting being indicated in Fig. 2. In addition, the feeding movement of the subject must take place at a slower rate than the feeding movement of the sensitized material.

The structural parts of the present invention may conveniently be divided into four main groups: First, the focal plane masking parts, to mask all but the desired limited area of the moving strip of sensitized material; second, the driving mechanism for the sensitized material; third, the subject holding mechanism, for holding and illuminating the subject to be copied; and fourth, the subject driving mechanism, for driving or advancing the subject to be copied. The description of the structure will be subdivided under these four headings for convenience of reference.

Focal plane masking parts As above indicated, only a small part of the focal plane area of the camera is used when making continuous strip reproductions, the remainder of the focal plane area being covered or masked off partly by using an adjustable masking screen of the conventional kind with which many commercial copying cameras are equipped, and partly by a special masking unit constituting part of the present invention, which can quickly and easily be placed in the camera when it is to be used for making such continuous strip copies, and removed from the camera when it is to be used in the conventional manner.

This masking unit is best shown in Figs. 4 to 8, inclusive, and comprises a vertical plate I2! having a forwardly extending horizontal flange |23 at its bottom edge, and a horizontal slot |25 extending almost the full width of the plate |2| but stopping somewhat short of the extreme lateral edges of the plate. A pair of narrow strips of material |21 are secured to the rear face of the plate |2| at the lateral vertical edges thereof, these strips being slightly thicker than the thickness of the film web P. The plate |2| is inserted in the camera body (after releasing the latches 43 and swinging the magazine section 4| to an open position) by placing it against the front face of the focal plane support with the bottom flange |23 resting on a transverse shelf |29 in the magazine section of the camera body, as shown in Fig. 3, and held against forward displacement by a transverse strip |3| secured to the top of the shelf |29. In this position, the strips |21 rest against the front face of the focal plane support 5| and serve to hold the remainder of the area of the plate |2| spaced slightly forwardly from the focal plane support, the film strip P extending downwardly through such space between the focal plane support 5| and the plate |2|.

It is desirable to be able to adjust the width of the slot in the plate |2| through which the exposure is made. To effect such control, a plate |35 of smaller area than the plate |2| overlies a part of the front face of the latter immediately adjacent the slot |25, and is movable vertically over the plate |2|, The plate |35 has a slot |31 corresponding in general to the slot |25, but narrower than the latter in a vertical direction. On the rear face of the plate |35 at the bottom edge of the slot |31, is secured a narrow transverse strip |39 (Fig. 6) having the same thickness as the plate |2|y so that the rear surface of the strip |39 lies in the same plane with the rear surface of the plate |2|, both of such rear surfaces being substantially in contact with the front face of the film strip P, to provide sharp and welldefined upper and lower edges of the effective exposure slot. The upper edge of the movable plate 35 has a forwardly extending strengthening flange |4| throughout most of its length, the flange being cut away at the extreme ends of the plate |35. Where this flange is cut away, the upper edge of the plate lies behind downwardly extending lugs of a pair of brackets |43 xed to the front face of the plate |2 I, which brackets serve to hold the upper ipart of the movable plate |35 against the front face of the plate |2| while permitting upward and downward sliding movement. The side edges of the cut away parts of the plate |35 lie closely adjacent the inner side faces of the brackets |43 to prevent substantial lateral movement of the plate. The lower part of the plate |35 is guided by means of a wide downwardly extending tongue |45 integral with and in the plane of the plate |35, which tongue extends into the hollow space within a bracket |41 fixed to the front face of the plate |2|, the lateral edges of the tongue |45 slidingly engaging the vertical lateral edges of the bracket as seen in Figs. 5 and 1.

Rotatably mounted in the bracket |41 is a shaft |49, to the front end of which is pinned a knob I5 l, and to the rear end of which is pinned a cam |53 which cooperates with a cam follower |55 adjustable with respect to the plate |35. Conveniently the cam follower |55 is formed by a shank adjustable vertically in a socket in a member |51 fixed to the front face of the plate |35, adjustability being secured by turning the screw |59, provided with a lock nut |6|. The front face of the member |51 lies closely adjacent a rearwardly faced surface of the bracket |41, as shown in Fig. 6, thus holding the lower part of the plate |35 against forward displacement away from the plate |2|.

Secured to the front face of the bracket |41, between it and the knob |5|, is a dial plate |65 suitably graduated, as shown in Fig. 4, for cooperation with an index mark on the disk |51 forming part of the knob |5|, Conveniently, the graduations on the dial plate run from 50 to 200, and represent percentages of size of the copy to be made, compared with the size of the subject being copied, so that if the copy is to be half the size of the original, the knob is turned to bring the index mark opposite the numeral 50, and for equal size reproductions, the index is set at the numeral 100, and so on.

To hold the control knob l5! against creeping from the position in which it is set, the bracket |41 is provided with a bore l1! in which is placed a spring-pressed ball assembly |13 including a ball |15 constantly pressed outwardly into engagement with the rear faceof the disk |61 provided with a series of openings |11 so arranged that one of such openings lies directly behind the ball |15 whenever the knob |5| is set with the index mark opposite any one of the graduations on the scale plate |65. The seating of the ball in one of the openings provides sufficient resistance to hold the knob against accidental turning due to vibration, but does not interfere with intended turning-by manual force applied to the knob.

Coiled tension springs |19 (Fig. 4) have their upper ends secured to brackets |3| near the bottomedge of the plate |35, and their lower ends secured to brackets |83 fixed to the plate |2| near its bottom edge, and thus constantly pull downwardly on the |plate |35 to keep the cam follower |55 in contact with the cam |53.

The adjustment of the cam |53, by the knob raises or lowers the plate |35 to overlap more or less of the width of the slot I25'in the plate |2|, thus varying the effective width of the exposure slot. Preferably the cam |53 is so designed as to have a uniform rise for equal amounts of rotation,being what is often called a uniformly accelerated cam, and the percentage graduations on the dial plate are spaced to give equal angles of rotation for equal changes in percentage. With this arrangement, the cam rise in turning through the 20%from, say, 180% to 160%, is the same as the rise in turning through any other 20% from, say, '10% to 50%. Hence, if the width of the exposure slot is a minimum at 50% setting and a maximum at 200% setting, it follows that at 100% it will have a width of the minimum plus one-third of the difference between minimum and maximum widths, and at 150% setting it will have a width of the minimum plus two-thirds of the difference. This is the preferred arrangement, and is believed to give best results, but it is not essential that the width of the slot be varied in exactly these proportions, it being within the scope of the present invention to vary the width of the exposure slot in any reasonable ratio between a maximum width for maximum percentage size of reproduction and a minimum width for minimum percentage size of reproduction.

With a lens system having an equivalent focal length of 13 inches, and with a feeding speed of travel of the film of about 2 feet per minute, and with the subject illuminated by four fluorescent tubes in the lamp housing of the subject holder described below, good results are attained by using an exposure slot varying from a minimum width of about 1/8 inch for making reproductions of 50% size, to a maximum width of about inch for making reproductions of 200% size, these figures being given merely as a convenient illustrative example, and not as a limitation on the invention.

The variation in width of the exposure slot serves to control the exposure time, which should be increased as the percentage size of reproduction increases, assuming constant intensity of illumination of the subject. If still further variation of exposure seems desirable under any given conditions, `this is preferably accomplished by adjusting the usual iris Adiaphragm (not shown) with which the lens system is provided, although ordinarily no adjustment of the diaphragm is required, the variation of the exposure slot being suicient. y

Fig. 4 illustrates the index mark on the disk |61 set opposite the numeral 200 on the scale plate |65, providing ari exposure slot of maximum width. In Figs. 6 and 1, the parts are adjusted to a setting of 50% size, and the plate |35 is raised to its maximum extent to provide the narrowest exposure slot.

This masking unit above described is used in conjunction with the adjustable masking curtain with which many photographic copying cameras of this general type are already equipped. Such masking curtain, as well understood in the art, includes a iiexible opaque curtain |9| (Fig. 3) mounted to move upwardly and downwardly in front of the focal plane support, the lower edge of the curtain having a strengthening transverse bar |93 connected thereto, and the upward and downward movements of the curtain being controlled by a pair of chains |95 at opposite sides of the camera body, running over suitable sprockets |91, |99, and 20|. Movements of the chain are controlled by an accessible external crank 203 (Fig. 2) on the camera body. When'the masking device above described with reference to Figs. 4 to 8 is installed Vin front of the focal plane, according to the present invention, then the crank 203 is turned to bring the masking curtain |9| downwardly until the bar |93 at its lower edge rests upon shoulders formed on the brackets |43, as seen in Fig. 3. In this position, the lower edge of the curtain |9| overlaps the upper edge of the masking plate |2|, and the curtain |9| and the masking device of the present invention together cover and mask all of the focal plane area of the camera except the area exposed through the exposure slots |25 and |31 in the plates |2| and |35, respectively. Yet it is but the work of a moment to remove the masking mechanism from the camera, first by turning the crank 203 to raise the masking curtain |9 and then by simply lifting out the masking device shown in Figs. 4 to-8 (after opening the camera body, of course) which simply rests loosely in the camera body without'l being held by any screws, bolts, or similar fastenings.

Driving mechanism iovthe sensitized 'material Mechanism is provided for driving the sensitized material, and also for driving the subject to be copied, both at a constant rate during the making of anyfgiven reproduction, but one or the other of these rates is variable in order to make copies of different sizes from a given original. Either the rate of driving Vthe sensitized now be described those parts of the driving mechanism which are common to both the sensitized material drive and the subject drive, together with those parts individual to the Asensitized material drive.

Reference is made to Figs. 2, and'9 to 12, inclusive. Mounted on the right hand side of the camera body, a little to the rear of the magazine section 4|, is a small electric motor 2||, the armature shaft of which is connected directly to the shaft of a worm 2 |3 driving a worm gear 2|5 (Figs. 9 and 12) in a gear box 2|1 having a removable front cover 2|9. The shaft 22| of the worm gear 2|5 extends through the rear wall of the gear box 2|1,A into a second'gear box 223, within which this shaft 22| carries a pinion 225 meshing with an idler gear 221 which, in turn, drives a gear 229 on a shaft 23|. An outward extension on this shaft 23| carries a beveled gear 233 which serves to drive the subject being copied, such drive from the gear 233 onward being described below, under the heading Subject driving mechanism. An inward extension of the same shaft 23| is provided with a coupling pin 235 (Figs. 10 and 12) engaging a suitable coupling sleeve 231 by which this shaft is coupled to the shaft of the upper rollers 91 of the conveyor belts 93 and 95, thus driving the conveyor system to carry the exposed film to the dark room.

Also mo-unted on the shaft 23|, alongside the gear 229, is a gear 24| from which the feedY roller 55 (Fig. 3) of the sensitized material is driven, to cause the sensitized material to be continuously advanced during the making of a continuous strip reproduction. The drive between the gear 24| and the feed roller 55 Vis such that the magazine section 4| of the camera body, in which the roller 55 is mounted, may readily be opened and closed as required, without difficulty and without damage to the drive.

To permit such opening and closing, there is provided in the gear box 223 a cross shaft V243 on which is swingingly mounted a bracket 245 carrying a gear 241 meshing with the gear 24|. This bracket 245 has a large opening 249 through which the shaft 23| passes, with considerable play, so that the bracket 245 may swing to a substantial extent around its pivot 243, notwithstanding the shaft 23|. By swinging the bracket 245 on its pivot 243, the gear 241, while remaining in mesh with the gear 24|, may be swung downwardly out of or upwardly into mesh with a gear 259 mounted in a gear box 25| on the magazine section 4| of the camera body, in a position in alinement with the feeding roller 55. the pin and slot connection indicated in general at 253 (Fig. l) connects the shaft of the gear 253 to the shaft of the feeding roller 55, driving the latter from the former.

A tension spring 255 (Fig. 11) connected at one end to a fixed stud and at the other end to an arm on the bracket 245, constantly tends to swing this bracket in a counterclockwiseV direction about its pivot 243, to hold the gear 241 in meshing engagement with the gear 250. The uppermost position of the bracket is controlled by an adjustable stop screw 251 provided with a locking nut. A handle 26| (Figs. 2, 9, 10, and 12) extends outwardly from the upper end of the bracket 245, through a suitable opening 263 in the gear box 223, to a position where it may be grasped. Downward pressure on this handle 25| swings the bracket against the tension of the spring 255, unmeshing the gear 241 from the gear 249 to insure non-interference with opening or closing movements of the magazine section di. of the camera body. In most cases, however, it is not necessary to depress the handle 26! when opening or closing the magazine section. for the elimination of any one-way clutch brake on the feeding roller 55 permits this roller to rotate slightly as required, in one direction or the other, when the gear 250 unmeshes from or meshes with the gear 241 during opening or closing movements.

Subject holding mechanism In place of the usual co'pyholderl or subject A suitable coupling connection such as A'ns holder customarily mounted for upward and downward focusing movement on the rails l|1 (Figs. 1 and 2) there is used a special subject holding and feeding mechanism mounted on a bracket 30| (Figs. l and 2) similar to the bracket supporting the conventional copyholder, and likewise adapted to travel upwardly and downwardly along the rails ||1. Referring now to Figs. 13 and 15, the mechanism includes a pair of side frames 303 supported by laterally extending feet or brackets 305 secured by adjustable levelling screws 331 to the main supporting brackets 39|. Extending transversely between these frames 353 is a plate 3|| forming the base on which the subject to be copied rests at the moment of exposure. Immediately in front of and behind this plate 3|I are feed rollers 3|3 and 3|5, respectively, on shafts journalled in the side frames 303. The left ends of both of these shafts extend through the left hand side frame and are provided, exteriorly thereof, with bevel gears 3|1 and 3|9, respectively (Figs. 14) meshing with bevel gears 32| and 323, respectively, both fixed to a longitudinal shaft 325. Hence the two feed rollers 3|3 and 3|5 turn at equal speeds, when one of them is driven. A gear box 321 (Figs. 14 and l5) encloses the gears 3| 1 to 323, inclusive, and the shaft 325.

Frictional brakes engage the feeding' rollers 3 i3 and A3|5 to eliminate the effect of backlash in the driving gearing, so that the subject will be driven smoothly at a constant rate. The frictional brakes are best seen from Figs. 17 and 18, and comprise one or twol pairs of brake shoes 33| each having la face'or lining 333 of felt or other soft friction material. Two pairs of brake shoes are here illustrated, but one pair may be omitted if desired. The brake shoes are mounted for longitudinal movement in grooves formed between ribs 335 on the underside of the plate 3| one pair of shoes being mounted between the two rollers 3|3 and 3|5 near the right hand ends of such rollers, the other pair being similarly mounted near the left hand ends of such rollers. The two shoes constituting each pair are constantly urged `away from each other by a coiled spring 331 interposed between the two shoes of the pair, the spring pressure serving to keep the soft `faces 33| in engagement with the rollers 3|3 and 3|5 to apply a slight frictional brake to the rotation of such rollers to eliminate the backlash effect. Cover plates 339 close the lower sides of the slots in which the shoes are mounted, holding them in place.

Pressure rollers 343 and 345 (Fig. 17) are mounted immediately above the rollers 3|3 and 3|5, respectively, being journalled in supporting levers 341 independently pivoted on studs 349. The free ends of the levers overlie flat spots on two shafts 35| journalled in the side frames 393 and provided at their right hand ends with handles 353 (Fig. 13) by which they may be turned to raise the ends of the arms 341 and thus to raise the pressure rollers 343 and 345 slightly from the rollers 3|3 and 3|5. Springs 355 tend to pull the arms 341 downwardly to maintain pressure between the sets of rollers. The left hand ends of the shafts 35| are provided with arms v3,51 (Fig. 14) which may engage stop pins 358 Vto limit rotational movement of the shafts to prevent their being turned through a complete rotation. Gears 359 at theV left ends of the pressure rollers 343 and 345 mesh with gears 369 at the corresponding ends of the rollers 353 and 3 5,

respectively, soV that both the upper and lower' sets of rollers are positively driven. Y

Between the pressure rollers 343 and 345, and above the plate 3| near opposite ends thereof, are a pair of metal frames 36| arranged hori- Zontally, having at their lower edges inwardly extending flanges on which is supported a plate 363 of ,suitable transparent material such as glass. f The lower front corner of the plate 363 is beveled as at 365, and the upper front corner of the base plate 3|| is similarly beveled at 361, to provide a flaring Ymouth at the entrance .to the-space between theY plates, to assist easy entry of the subject to be copied.

Extending forwardly from the front feeding roller 3|3, at the same level as the top of this roller (which is also 'the same level as the top surface of the plate 3| I) is a fiat horizontal plate or shelf 31| forming a convenient support on which the subject to be copied is placed prior to feeding it through the rollers and between the plates 3|| and 363. Lateral guides (not shown) are preferably mounted adjustably on this shelf 31| to guide the edges of the subject as it is fed rearwardly into the rollers. The position of the subject being copied, in passing over the shelf 31| and between the feeding rollers, is indicated at S in Fig. 17.

A lamp housing indicated in general at 315 rests upon the top edges of the side frames 303 and. is removably secured thereto by screws 311 (Figs. 13 and 18) the Shanks of which extend through vertical slots in the downwardly extending webs 319 of angle bars riveted to the bottom of the lamp housing. By slightly loosening the screws 311 without removing them completely, the entire lamp housing can be lifted off of the top of the side frames 303, for Vinspection or replacement of the illuminating means.

Within the lamp housing is any suitable illuminating means for illuminating the subject to be copied, as it passes under the transparent plate 363. The illuminating means may take the form of incandescent light bulbs or fluorescent light tubes, the latter preferably being employed. Four of such tubes are indicated at 38|, 383, 385, and 381, controlled by a switch 389. The first two tubes are served by a transformer 39| and the other pair by a transformer 393. Partitions 395 and 391, respectively, form compartments within the lamp housing for containing the transformers.

The top of the lamp housing 315 is provided with [an opening 399 through which the light rays from the illuminated subject pass upwardly to the camera prism. The walls surrounding this opening overlap the illuminating means so that direct light rays therefrom can not pass upwardly toward the prism,

An inclined guard plate 40| is fixed to the lower front corner of the lamp housing 315 and extends obliquely downwardly and rearwardly therefrom to a position close to the nip between the rollers 3|3 and 343, to deflect downwardly any upcurled advancing edge of the subject being fed into the mechanism. As the advancing edge of the subject issues from thesecond pair of rollers 3|5 and 345, it is deflected downwardly by a curved guard plate 403, into the upperend of a downwardly and forwardly extending trough 405 secured between the side frames 303, which trough terminates in a flat bottom 401 and a low front wall 409 (Fig. 13) providing an enclousre within which the subject may curl up, or may lie in whatever form (loose folds, for example) the materiai may naturally assume, until the entire strip has passed through the machine and is readyto be removed.

Subject driving mechanism The feeding rollers 3|3 and 3| 5 are driven as follows: The previously mentioned bevel gear 233 (Figs. `9, 10, and ,12) meshes with and drives a second bevel gear 42| mounted on a short inclined shaft 423 connected by a universal joint 425 with the upper end 421 of a telescopic shaft,

best seen in Figs. 1 and 2. The lower end 429 of this telescopic shaft isr connected by a second universal joint 43| to a short sleeve 433 joined 15 to a short shaft 434, projecting obliquely rearwardly and upwardly from a gear housing 435 mounted on the right hand side frame 393 of the subject holding mechanism Referring now to Figs. 19 to 21, inclusive, the

my shaft 434 has pinned to its lower end a bevel gear 431 meshing with another bevel gear 439 pinned to a shaft 44| journalled in the gear box 435. Two spur gears 443 and 445, the latter of larger diameter than the former, are also pinned 25, to this shaft 44|. Parallel to the shaft 44| is a d shaft 441 provided with ya keyway in which slides a key on a sleeve 449 longitudinally slidable on the shaft. On this sleeve are xed two spur gears 45| and 453, the former of larger diameter than 9 0-v the'latter. The sleeve is also provided with a circumferential groove which receives a shifting yoke 455 pinned to a shaft or plunger 451, slidable longitudinally and projecting through the end wall of the gear housing 435, theouter end of gggthe shaft having a control knob 459. A springpressed ball 460 (Fig. tends to hold the shifting yoke 455 in one or the other of its two extreme positions.

When the knob is pulled to its extreme outer 49g position, the yoke 455 moves the sleeve 449 until this sleeve comes in contact with a stop collar 46| pinned to the shaft 441, in which position the gear meshes with the gear 443. This position of the parts is illustrated in Fig. 21. The 45. gear 443 is one-half the diameter of the gear 45|, hence the shaft 441 is driven at one-half the speed of `the shaft 44|. When the control knob 459 is pushed inwardly to its inner limit of motion, the gear 45| is unmeshed from the gear 443 50'. and the companion gear 453 is meshed with the gear 445 on the shaft 44|, This position of the parts is illustrated in Fig. 20. The gear 445 is the same diameter as the gear 453, hence the shaft 441 is now driven at the same speed as the j shaft 44|.

On the shaft 441 is a second shiftable assembly comprising a pair of spaced arms 465 rotatable as well as slidable longitudinally on the shaft '441; the arms being connected to each other at vone end by a screw 461 and spacer block 469. The other ends of the arms 465 extend outwardly through an opening 5|| in the casing 435 and are connected by screws or bolts, 41| passing through a spacer block 413-(Fig. 22) to which is ,pivoted at 415 a bracket 411 carrying a control knob 419 and a pin 48|, the bracket 411 being constantly pressed in a counterclockwise direction by a spring plunger 483. Mounted on the shaft 441 between the two arms 465 is a pinion v49| which, like the sleeve 449, has a spline or key tting loosely in the keyway of. the shaft 441, so that the pinion is free to slide longitudinally on the shaft but must turn therewith.

Also mounted between the arms 465, at some Adistance from the shaft 441., is a gear 493 meshing with and turned by the pinion 49|. By sliding the arms 465 longitudinally on the shaft 441, and at the same time properly adjusting the an gular relationship of the arms 455 in a rotary direction around the shaft, the gear 493 can be brought into mesh with any one of the steps of a cone gear 495 pinned to a shaft 491 parallel to the shafts 441 and 44|. To this shaft 491 is also pinned a pinion 499 meshing with a second pinion 50| pinned to the shaft 503 of the feeding roller 3|3.

As the gear 493 is shifted to successively larger diameter stepsI of the cone gear 495, the arms 465 carrying the gear 493 must, of course, be swung farther around the shaft 441. Hence the opening 5|| (Fig. 15) through which the arms 465 extend has inclined upper and lower edges, as shown, Adjacent the upper edge of the opening 5|| are a number of holes 5l3 into which the pin 48| (Fig, 22) of the knob 419 may extend, to lock the gear 493 in any given position in mesh with any selected one of the steps of the cone gear 495. To unlock the gear to shift it to meshing engagement with another step, the knob 419 is pulled outwardly, swinging the bracket 411 about the pivot 415 against the force of the spring plunger 483. This pulls the pin 48| out of the hole 5| 3 in which it is set, and permits the knob 419 to be shifted laterally in one direction or the other, to place the pin 48| in any other selected hole, to' establish a different driving relation between the gears.

To assist in properly meshing the gears for any given speed relationship, there is placed on the casing immediately above the opening 5H, an

indicia plate 5|1 containing various markings as shown in Figure 16. Graduations on this plate, marked with numerals from 50 to 100 and from 100 to 200, refer to the various holes 5|3 in which the pin 48| may selectively be placed.

When the control knob 459 of the plunger 451 is moved all the way inwardly (to the position shown in Fig. 20) and when the control knob 419 is so placed as to mesh the gear 493 with the smallest diameter step of the cone gear 495, then the driving relation of the parts is such that the feeding rollers 3|3 and 3|5 move the subject to be copied at twice the speed of travel at which the feeding ro-ller 55 moves the sensitized film strip, thus being adapted to make a print of 50% of the size of the subject, assuming the camera is properly focussed for this size. When the knob 419 is shifted to mesh the gear 493 with successively larger steps of the cone gear 495 (without changing the setting of the contro-l knob 459) the rate of driving the feeding rollers 3|3 and 3|5 becomes progressively less and less (inversely proportionally to the numerals on the upper graduated line on the indicia plate 5|1 shown in Fig. 16) until, with the gear 493 meshed with the largest diameter step of the cone gear, the rollers 3|3 and 3|5 will feed the subject at exactly the same rate of travel as the film is fed by the at just half of the speed of travel of the film by 76 the roller 55, thus adapting the parts to making a print of twice the size or 200% of the size of the subject, if the camera is properly focussed for this size. If the gear 493 be meshed with the smallest step of the cone gear, the subject and the film will be driven at equal speeds. When meshing with other steps of the cone gear (the control knob 459 remaining in its outermost position) various intermediate speeds will result, proportional to the reciprocals of the respective numerals on the lower graduated line cn the plate 5|1 in Fig. 16.

In addition to setting the gearing in order to control properly the relative speeds of travel of the subject and of the film, it is also necessary. of course, to focus the camera properly for each new ratio of enlargement or reduction. This is mo-st conveniently done` by employing the usual scales customarily provided in connection with the camera body and the copyholder in commercial copying cameras of this kind, these scales preferably being graduated in percentages, corresponding to the percentages shown in the gear setting indicia plate 5|1 of Fig. 16, and the percentages shown in the exposure slot setting plate |65 of Fig. 4. For example, as shown in Fig. 2, the top rail 33 of the supporting frame of the camera body carries a scale 52| graduated in percentages, cooperating with an index finger 523 on the camera body. Likewise one of the vertical posts of the supporting frame carries a scale 525, also graduated in percentages and cooperating with an index nger 521 on the bracket 30| which supports the device for holding and feeding the subject to be copied.

Operation 1f it is desired to make a copy of the original document or other subject on a scale twice the size of the original (that is, 200% of the size of the original) then the camera body 30, 4| is moved along the supporting rails 33 until the index finger 523 is opposite the numeral 200 of the scale 52|. Likewise the supporting bracket 30| of the copyholding device is moved along the vertical rails ||1 until the index nger 5'2".' is opposite the scale number 200 of the scale 525. The magazine section 4| of the camera body is opened to obtain access to the exposure slot controlling knob 5| (Figs. 3 and 4) and this knob is turned to bring the index mark thereon opposite the graduation numeral 200. Also the control knob 459 (Figs. 15 and 20) is pulled outwardly to its outermost position as shown in Fig. l5, and the control knob 419 is shifted to place the pin 48| in the outermost one of the series of holes 5|3 (the position shown in Fig. 15) thus meshing the gear 493 with the largest diameter step of the cone gear 495. These 200% settings of all of the parts just mentioned are the settings shown in Figs. 2, 3, 4, 15, and 21.

Now if the film (for example, sensitized paper) is properly threaded through the focal plane of the camera body and the magazine section is closed in a light-tight manner, and if the motor 2l is set into operation, the lights 38| to 381 are turned on, and a suitable subject S to be copied is placed on the shelf 31| and moved rearwardly until the advancing edge thereof is caught in the nip between the rollers 3|3 and 343, the result will be that these rollers, together with the rollers 3|5 and 345, will feed the subject S between the supporting plate 3|| and the transparent plate 363 at a speed of travel just half asfast as the speed at which the nlm P is fed by the rollers 55 

